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Root architecture responses: in search of phosphateIdentifying Stable Reference Genes for qRT-PCR Normalisation in Gene Expression Studies of Narrow-Leafed Lupin (Lupinus angustifolius L.).Biochemical characterization of two wheat phosphoethanolamine N-methyltransferase isoforms with different sensitivities to inhibition by phosphatidic acidA novel plant-fungus symbiosis benefits the host without forming mycorrhizal structures.Proteome analysis of the Albugo candida-Brassica juncea pathosystem reveals that the timing of the expression of defence-related genes is a crucial determinant of pathogenesis.Low levels of ribosomal RNA partly account for the very high photosynthetic phosphorus-use efficiency of Proteaceae species.Molecular and biochemical analysis of the enzymes of cysteine biosynthesis in the plant Arabidopsis thaliana.Arabidopsis PHOSPHATE TRANSPORTER1 genes PHT1;8 and PHT1;9 are involved in root-to-shoot translocation of orthophosphate.Differentiating phosphate-dependent and phosphate-independent systemic phosphate-starvation response networks in Arabidopsis thaliana through the application of phosphite.Phosphorus nutrition of phosphorus-sensitive Australian native plants: threats to plant communities in a global biodiversity hotspotAcclimation responses of Arabidopsis thaliana to sustained phosphite treatments.Sulfur-enhanced defence: effects of sulfur metabolism, nitrogen supply, and pathogen lifestyle.Phosphorus nutrition in Proteaceae and beyond.Characterization of Four Bifunctional Plant IAM/PAM-Amidohydrolases Capable of Contributing to Auxin Biosynthesis.Organ-specific phosphorus-allocation patterns and transcript profiles linked to phosphorus efficiency in two contrasting wheat genotypes.Sensitivity of jarrah (Eucalyptus marginata) to phosphate, phosphite, and arsenate pulses as influenced by fungal symbiotic associations.Characterization of TCTP, the translationally controlled tumor protein, from Arabidopsis thaliana.Tight control of sulfur assimilation: an adaptive mechanism for a plant from a severely phosphorus-impoverished habitat.Tight control of nitrate acquisition in a plant species that evolved in an extremely phosphorus-impoverished environment.Analysis of the Arabidopsis O-acetylserine(thiol)lyase gene family demonstrates compartment-specific differences in the regulation of cysteine synthesis.Expression profiling of metabolic genes in response to methyl jasmonate reveals regulation of genes of primary and secondary sulfur-related pathways in Arabidopsis thaliana.Genomic and functional characterization of the oas gene family encoding O-acetylserine (thiol) lyases, enzymes catalyzing the final step in cysteine biosynthesis in Arabidopsis thaliana.The loss of vernalization requirement in narrow-leafed lupin is associated with a deletion in the promoter and de-repressed expression of a Flowering Locus T (FT) homologue.Root Cell-Specific Regulators of Phosphate-Dependent Growth.Lipid biosynthesis and protein concentration respond uniquely to phosphate supply during leaf development in highly phosphorus-efficient Hakea prostrata.An enzymatic fluorescent assay for the quantification of phosphite in a microtiter plate formatComparative Proteome Analysis of the Strawberry-Fusarium oxysporum f. sp. fragariae Pathosystem Reveals Early Activation of Defense Responses as a Crucial Determinant of Host ResistanceImproved sulfur nutrition provides the basis for enhanced production of sulfur-containing defense compounds in Arabidopsis thaliana upon inoculation with Alternaria brassicicolaMagnetic quantitative reverse transcription PCR: a high-throughput method for mRNA extraction and quantitative reverse transcription PCRNMT1 and NMT3 N-Methyltransferase Activity Is Critical to Lipid Homeostasis, Morphogenesis, and ReproductionSPX4 Acts on PHR1-Dependent and -Independent Regulation of Shoot Phosphorus Status in Arabidopsis
P50
Q27027994-125050E5-B6C7-44EB-8D61-F40838C5F70FQ33362558-4964D8E9-EA34-4BB6-94AD-88B332B2DA38Q33553792-2F7AA0C2-3D5E-460E-967E-B96FA1E59068Q34388133-75E6F42C-6C04-49D7-9717-E73B9A76F3ECQ34497938-31162A4A-88E6-4943-B0DD-7A38CF95106AQ34659028-20B78466-29D2-43E6-9FB5-D9E3AE1F6B80Q34706051-A255D854-6DD0-432A-A72F-42CAE29AE4FAQ35453898-424067A6-41A7-4698-90AB-4F797DABC5D8Q35564249-BCA36B38-CA4F-4F54-B904-DF3BF3546ECCQ36049960-FF52799C-0FC2-422F-AA5F-A08C0716F54BQ36743765-37762BED-01AB-4520-9D38-9088D9047BC4Q36939814-AFD9DD1A-D979-4F88-8C3F-726876F5ACB4Q38850507-6E969EB4-5942-4AF9-B25D-026D04356A35Q39804081-82BB43F7-1F6D-44AB-81DA-8855B9755FB3Q42447944-125B0343-57BE-4F95-9E2C-B2EF557D2A51Q42703438-21979021-E97A-4298-B4FC-9306992FE089Q44322563-8CD95E79-FF33-4EDE-A43C-20328644A1A5Q46343521-BAA0A29E-98D7-4BA6-9A7A-AE8C094D81C4Q46466140-66E00434-F91A-4AB0-89E9-B330BA975FEBQ46789045-E7B8F871-6C15-4374-9E82-A853FEFAD781Q46819546-19E6580D-372D-4A89-8393-FE9EF85F1789Q47837838-C0F11078-87B3-4176-AAFD-E83E33B925A9Q47865178-1A3E1C5F-BE2C-4B96-B182-756F46BF6AFBQ48062445-5CFE8DDF-2008-43F0-A149-B5BEDF01E70EQ48260685-D3B1D96D-90E6-404C-9F2E-6E2CCF88F4E1Q60233088-850C905A-F6E6-4E41-A471-48F8EE95F16CQ62059964-61702830-2F3C-4482-9569-B931E2225337Q62059965-AF9371EF-3935-415E-B9BB-92AC883E5AF5Q81155905-C208C0AD-EA56-432B-8A4F-7D05185AF2A7Q88732332-4FF277BF-1DE0-40CE-BEEE-33DCE00BAEAAQ91527587-7152F9AA-FE70-4801-B4F7-69455493CEDA
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
ricercatrice
@it
հետազոտող
@hy
name
Ricarda Jost
@ast
Ricarda Jost
@en
Ricarda Jost
@es
Ricarda Jost
@nl
Ricarda Jost
@sl
type
label
Ricarda Jost
@ast
Ricarda Jost
@en
Ricarda Jost
@es
Ricarda Jost
@nl
Ricarda Jost
@sl
prefLabel
Ricarda Jost
@ast
Ricarda Jost
@en
Ricarda Jost
@es
Ricarda Jost
@nl
Ricarda Jost
@sl
P108
P214
P1053
B-1254-2011
P106
P1153
22134982700
P21
P214
P31
P3829
P496
0000-0002-3819-6358
P734
P7859
viaf-57544002